"High-entropy alloys have been a black box for catalysis because you could never control the surface,” Mirkin said. “We fixed ...

Researchers have developed a thin plastic film that tears apart viruses on contact, offering a promising new way to keep high ...

Twisting atomically thin hybrid perovskite crystals against other 2D materials at controlled angles tunes interlayer coupling ...

Researchers discover an atomic-scale gap between 2D materials and insulators that limits chip miniaturization and identify ...

A new study reveals how a spinning vortex causes system-wide, counter-rotating wave patterns, mimicking effects that occur, ...

Researchers develop a new computational model that helps identify origin of complex magnetization reversal in soft magnets.

A device based on ultra-thin ferroelectric films can switch on and off thermal conduction, offering a stable and innovative ...

Folding-mediated self-assembly of luminescent molecules reveals a new design principle for efficient light-energy transport ...

A joint report tracks the rapid growth of perovskite solar cell research since 2012 and highlights tandem architectures that ...

Crystalline arsenic trisulfide shows record photorefractive response and can be laser-patterned at 500-nm resolution without ...

A soft magnetoelectric sensor feels touch, detects its own damage, and heals itself underwater without external power, ...

A nanoengineered wrist-worn triboelectric sensor captures arterial pulse waves under real-world conditions and uses machine ...